石灰联合碳铵熏蒸对连作香蕉生长和根际微生物群落结构的影响

摘 要：由于长期连作导致香蕉枯萎病大量爆发，造成香蕉种植面积锐减，已严重影响海南香蕉产业的发展，因而急需寻求能够缓解或克服香蕉连作障碍的有效措施。本实验旨在探究使用绿色土壤熏蒸剂对长期连作蕉园的香蕉枯萎病的防控效果，特别是对植株生长发育、土壤化学性质和根际微生物区系的影响。田间试验共设置两个处理：石灰碳铵熏蒸处理（LAB）和对照处理（CK）。结果表明: LAB处理可以显著降低香蕉枯萎病发病率，与CK处理相比两季分别降低40%和46.62%，显著增加香蕉亩产量，与CK处理相比两季分别增产45.56%和75.99%。LAB处理可以显著提高土壤pH，改善土壤酸化，使酸性土壤维持中性水平，同时，增加土壤有机质含量，并且显著提高土壤速效磷（两季分别提高28.33%和89.14%）和速效钾含量（23.92%和38.67%）。并且LAB处理明显改变香蕉根际微生物群落结构，可以显著降低变形菌门和子囊菌门相对丰度，显著增加放线菌门等相对丰度，同时显著降低病原菌镰刀菌属相对丰度，并且显著提高部分土壤拮抗菌属的相对丰度，如链霉菌属、红球菌属和曲霉属。因此，石灰碳铵熏蒸有效改善香蕉根际微生物群落结构，有效防控香蕉枯萎病的发生并促进其植株生长。     

The microbial diversity and structure in peatland forest in Indonesia

The microbial community structure and function under forest in tropical peatlands are poorly understood. In this study, we investigated the microbial community structure and diversity in natural peat swamp forest soil, disturbed peat soil and mineral soil in Central Kalimantan, Indonesia, using 454 pyrosequencing. The results showed that the natural peat soil had the greatest fungal species richness (Chao1), which was significantly (p < .05) larger than that in the other two soils. Community structure of both fungi and bacteria in natural peat soil differed significantly from that in the disturbed peat soil (p = .039 and p = .045, respectively). Ascomycota (40.5%) was the most abundant phylum across the three soils followed by Basidiomycota (18.8%), Zygomycota (<0.1%) and Glomeromycota (<0.1%). The linear discriminant analysis with effect size (LEfSe) showed that Ascomycota (p < .05) and genus Gliocephalotrichum (p < .05) dominated in natural peat soil. Functionally, pathotrophs were more abundant in disturbed peat soil (p < .05). Proteobacteria (43.8%) were the most abundant phylum followed by Acidobacteria (32.6%), Actinobacteria (9.8%), Planctomycetes (1.7%). Methylocystis, Telmatospirillum, Syntrophobacter, Sorangium and Opitutus were the more abundant genera in disturbed peat soil, whereas Nevskia and Schlesneria were more abundant in mineral soil and natural peat soil, respectively. The natural peat forest soil supported a more diverse microbiology; however, the land use of such a soil can change its microbial community structure. The results provide evidence that the disturbance of tropical peat land could lead to the introduction and spread of a large number of fungal diseases     

Fine root decomposition,nutrient mobilization and fungal communities in a pine forest ecosystem

Despite its importance to energy flow and nutrient cycling the process of fine root decomposition has received comparatively little detailed research. Disruption of the fine root-soil interface during preparation of root litterbags for decomposition studies could affect decay rates and nutrient mobilization in part by altering the community of decay organisms. We compared rates of decomposition and nutrient release from fine roots of pine between litterbags and intact cores and characterized the fungal community in the decomposing roots. Fine root decomposition was about twice as fast overall for intact cores than litterbags, and rapid mobilization of N and P was observed for roots in cores whereas nutrients were immobilized in litterbags. Fungal communities characterized using 454 pyrosequencing were considerably different between decaying roots in intact cores and litterbags. Most interesting, taxa from ectomycorrhizal fungal orders such as Boletales, Thelephorales and Cantharellales appeared to be more common in decaying roots from cores than litterbags. Moreover, the rate of N and P mobilization from decaying fine roots was highly correlated with taxa from two orders of ectomycorrhizal fungi (Thelephorales, Cantharellales). Although we caution that DNA identified from the decaying roots cannot be conclusively ascribed to active fungi, the results provide tentative support for a significant role of ectomycorrhizal fungi in decomposition and nutrient mobilization from fine roots of pine.     

传染性造血器官坏死病毒焦磷酸测序检测技术的建立

根据传染性造血器官坏死病毒(IHNV)基因序列,设计了IHNV最为保守的指纹序列,以及测序引物,建立了IHNV焦磷酸测序检测方法。对所构建的IHNV焦磷酸检测方法进行特异性试验和灵敏度检测。结果表明,所建立的方法特异性好,在8种鱼类病毒中能够特异性检测出目的病毒,检测方法灵敏度高,最低检出核酸量为10pg/μL。对建立的焦磷酸测序检测方法进行了实际应用研究,选取国内采集与进口的鱼类样本共计80批次进行IHNV检测。结果显示,焦磷酸测序检测方法可以有效的检出常规RTPCR不能检出的假阴性样本和弱阳性样本,该方法的灵敏度和特异性可以满足水生动物疫病检测的需要。     

Soil conditions and land use intensification effects on soil microbial communities across a range of European field sites

Intensive land use practices necessary for providing food and raw materials are known to have a deleterious effect on soil. However, the effects that such practices have on soil microbes are less well understood. To investigate the effects of land use intensification on soil microbial communities we used a combined T-RFLP and pyrosequencing approach to study bacteria, archaea and fungi in spring and autumn at five long term observatories (LTOs) in Europe; each with a particular land use type and contrasting levels of intensification (low and high). Generally, due to large gradients in soil variables, both molecular methods revealed that soil microbial communities were structured according to differences in soil conditions between the LTOs, more so than land use intensity. Moreover, variance partitioning analysis also showed that soil properties better explained the differences in microbial communities than land use intensity effects. Predictable responses in dominant bacterial, archaeal and fungal taxa to edaphic conditions (e.g. soil pH and resource availability) were apparent between the LTOs. Some effects of land use intensification at individual field sites were observed. However, these effects were manifest when land use change affected soil conditions. Uniquely, this study details the responses of different microbial groups to soil type and land use intensification, and their relative importance across a range of European field sites. These findings reinforce our understanding of drivers impacting soil microbial community structure at both field and larger geographic scales.     

绿脓杆菌焦磷酸测序检测方法的建立

本试验旨在利用绿脓杆菌的序列信息分析和焦磷酸测序技术,建立一种快速、简单检测绿脓杆菌的方法。从培养的绿脓杆菌中提取DNA,PCR扩增目的基因片段,采用焦磷酸测序技术(pyrosequencing technology,PSQ)针对保守核苷酸区段的测序分析。通过焦磷酸测序后获得的序列信息与已知的目的基因的序列比对,能进一步确证毒株的序列信息为绿脓杆菌。利用焦磷酸测序能快速获取核酸的序列信息,可为毒株及早确证奠定基础。     

不同磷肥用量对水稻土有机碳矿化和细菌群落多样性的影响

以水稻田田间定位试验为研究对象,利用三维荧光光谱技术(3D EEMs)和454测序技术,采集4个施磷水平(0、30、60、90 kg hm-2a-1)土壤,测定其有机碳矿化、溶解有机碳(DOC)组成和结构特征及细菌群落结构和丰度的变化。结果显示:水田施磷增加了土壤速效磷(Olsen-P),从而提高了土壤DOC含量,加速了有机碳的矿化速率和累积矿化量。3D EEMs结果表明,施磷分别显著增加了荧光指数和鲜度指数值1%~10%和3%~21%,而降低了腐殖化指数,且与土壤生化性质(Olsen-P、DOC和β-葡萄糖苷酶)具有显著相关性。说明施磷通过提高Olsen-P,促进了微生物源DOC的生成,同时降低了DOC的芳香化程度、分子量及腐殖化程度,从而提高了DOC生物可降解性。同时,施磷提高了细菌群落的丰度和多样性,特别是磷诱导了多种具有碳降解功能细菌的增加,从而加速了复杂有机碳的降解和甲烷氧化。此外,主成分分析表明稻田磷素施用量在30~60 kg hm-2a-1时对土壤有机碳矿化及细菌群落多样性的提高作用最为明显。因此,适度施磷能显著提高涉碳降解微生物的活性,从而提高DOC的生物可降解性,加速有机碳的矿化速率,促进稻田土壤有机碳循环。